Abstract 494P
Background
The study aimed to assess the effects of a modified electric field patch operation method on scalp adverse reactions in glioblastoma patients undergoing tumor treating fields (TTFields).
Methods
A total of 73 glioblastoma patients who received TTFields between May 2019 and July 2022 were included in the study. The control group consisted of 36 patients treated with the conventional electric field patch operation method before April 2021, while the modified group included 37 patients treated after May 2021 using an improved technique for adhesion and removal of the electric field patch. The study conducted a comparison between two groups regarding the incidence of adverse scalp reactions and compliance with TTFields.
Results
The modified group exhibited significantly lower rates of scalp pruritus (P=0.0246), contact dermatitis (P=0.0253), and skin ulceration (P=0.0299) compared to the control group. Additionally, compliance with TTFields was notably higher in the modified group (81.1%) than in the control group (52.8%) with a statistically significant difference (P=0.0101). Furthermore, the incidence of adverse scalp reactions displayed seasonal variability, with the highest rates observed in summer (56.16%) and the lowest in winter (8.22%). Following the implementation of the adjusted electric field patch operation technique, a notable decrease in the incidence of adverse scalp reactions during the summer (P=0.0002), autumn (P=0.0411), and spring (P=0.0342) seasons was observed.
Conclusions
The utilization of this modified method has demonstrated efficacy in mitigating scalp adverse reactions, minimizing treatment disruptions, and enhancing adherence to TTFields therapy among patients.
Clinical trial identification
Editorial acknowledgement
Legal entity responsible for the study
The authors.
Funding
Has not received any funding.
Disclosure
All authors have declared no conflicts of interest.
Resources from the same session
478P - Molecular characterization of adult non-glioblastoma central nervous system (CNS) tumors to identify potential targettable alterations
Presenter: Marta Padovan
Session: Poster session 16
479P - The candidate novel markers PIV and PILE score to predict survival outcomes and therapeutic response in patients with primary central nervous system lymphoma
Presenter: Ling Duan
Session: Poster session 16
Resources:
Abstract
480P - Clinical utility of ctDNA detection by NGS for diagnosis of CNS lymphoma
Presenter: Ana Jiménez-Ubieto
Session: Poster session 16
481P - Integrating GWAS and transcriptomics prioritizes drug targets for meningioma
Presenter: Wan-Zhe Liao
Session: Poster session 16
482P - The prognostic impact of CDKN2A/B heterozygous deletions in meningioma: Insights of a multicenter analysis
Presenter: Franziska Ippen
Session: Poster session 16
483P - The use of steroids associated with PD1/PDL-1 blockage in patients with brain metastasis: A systematic review and meta-analysis
Presenter: Francisco Cezar Moraes
Session: Poster session 16
484P - EGFR amplification is the potential driver gene that accelerates brain metastases in NSCLC patients
Presenter: Hainan Yang
Session: Poster session 16
485P - A spatio-temporal evolution mathematical model of glioma growth: The influence of cellular and nutrient interactions on the tumor microenvironment
Presenter: Kalysta Borges
Session: Poster session 16
486P - Effects of a BBB-penetrating oligonucleotide drug, RBD8088, in mouse models of human glioblastoma
Presenter: Julia Grönros
Session: Poster session 16
487P - 3D-bioprinted co-cultures of glioblastoma and mesenchymal cells indicate a role for perivascular niche cells in shaping the chemotactic tumour microenvironment
Presenter: Radosław Zagożdżon
Session: Poster session 16